Concentration of surface hydroxyl groups on MCM-41
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[1] Structure simulation of mesoporous molecular sieves , 1998 .
[2] Ping Liu,et al. Non-silica periodic mesostructured materials: recent progress , 1997 .
[3] Avelino Corma,et al. From Microporous to Mesoporous Molecular Sieve Materials and Their Use in Catalysis. , 1997, Chemical reviews.
[4] A. Corma,et al. Hydrogenation of Aromatics in Diesel Fuels on Pt/MCM-41 Catalysts☆ , 1997 .
[5] M. Jaroniec,et al. Adsorption Study of Surface and Structural Properties of MCM-41 Materials of Different Pore Sizes , 1997 .
[6] G. Eigenberger,et al. Influence of the aluminum content on the adsorptive properties of MCM-41 , 1997 .
[7] R. Fricke,et al. Acidity of substituted MCM-41-type mesoporous silicates probed by ammonia , 1997 .
[8] Julian D. Gale,et al. GULP: A computer program for the symmetry-adapted simulation of solids , 1997 .
[9] P. Behrens. Voids in Variable Chemical Surroundings: Mesoporous Metal Oxides , 1996 .
[10] J. Klinowski,et al. Acidity and catalytic activity of the mesoporous aluminosilicate molecular sieve MCM-41 , 1996 .
[11] Chunshan Song,et al. Synthesis of mesoporous molecular sieves: influence of aluminum source on Al incorporation in MCM-41 , 1996 .
[12] J. Lercher,et al. Synthesis and characterization of mesoporic materials containing highly dispersed cobalt , 1996 .
[13] J. Lercher,et al. Infrared studies of the surface acidity of oxides and zeolites using adsorbed probe molecules , 1996 .
[14] A. Jentys,et al. Nature of hydroxy groups in MCM-41 , 1996 .
[15] J. Klinowski,et al. IR spectroscopic studies of the acidic properties of the mesoporous molecular sieve MCM-41 , 1996 .
[16] S. Tsang,et al. Surface-grafted manganese–oxo species on the walls of MCM-41 channels—a novel oxidation catalyst , 1996 .
[17] A. Sayari. Periodic mesoporous materials: synthesis, characterization and potential applications , 1996 .
[18] F. Rey,et al. Heterogeneous catalysts obtained by grafting metallocene complexes onto mesoporous silica , 1995, Nature.
[19] F. Schüth. Surface Properties and Catalytic Performance of Novel Mesostructured Oxides , 1995 .
[20] A. Corma,et al. Synthesis, Characterization, and Catalytic Activity of Ti-MCM-41 Structures , 1995 .
[21] A. Clearfield,et al. Synthesis of aluminum rich MCM-41 , 1995 .
[22] F. Schüth,et al. MCM-41 as a support for small platinum particles: a catalyst for low-temperature carbon monoxide oxidation , 1995 .
[23] J. B. Higgins,et al. Model Structures for MCM-41 Materials: A Molecular Dynamics Simulation , 1994 .
[24] I. Kozhevnikov,et al. New acid catalyst comprising heteropoly acid on a mesoporous molecular sieve MCM-41 , 1994 .
[25] Ferdi Schüth,et al. High-resolution transmission electron microscopy of mesoporous MCM-41 type materials , 1994 .
[26] D. Akporiaye,et al. Synthesis of a mesoporous MCM-41 material with high levels of tetrahedral aluminium , 1994 .
[27] T. Bein,et al. Conducting Polymer Wires in Mesopore Hosts , 1994 .
[28] Mark E. Davis,et al. Studies on mesoporous materialsI. Synthesis and characterization of MCM-41 , 1993 .
[29] C. A. Emeis. Determination of integrated molar extinction coefficients for infrared absorption bands of pyridine adsorbed on solid acid catalysts , 1993 .
[30] J. B. Higgins,et al. A new family of mesoporous molecular sieves prepared with liquid crystal templates , 1992 .
[31] J. S. Beck,et al. Ordered mesoporous molecular sieves synthesized by a liquid-crystal template mechanism , 1992, Nature.
[32] C. Catlow,et al. Molecular Dynamics Simulation of Silica Glass , 1989 .
[33] J. W. Ward. The nature of active sites on zeolites: I. The decationated Y zeolite , 1967 .
[34] E. P. Parry,et al. An infrared study of pyridine adsorbed on acidic solids. Characterization of surface acidity , 1963 .